KR200306401Y1 - The seawater exchange equipment of waves prevention revetment - Google Patents

Abstract

In general, the breakwater with inland sea side slopes and the sea side slopes with sofa functions is called breakwater. This design allows seawater in the sea and the sea to pass through the breakwater body smoothly by tides. It is designed to make the seawater quality in the inland sea clean. In particular, the slope of the outer sea side has the function of breakwater, and it has a wide landfill width to be filled with landfill and various facilities (eg warehouse, office building) on the ground. Etc.) is designed for the construction of a breakwater shelter, which is a construction provided by a shelter that can be used as a water farm for unloading cargo by rafting a ship or a ship on the inner sea side.

Description

The seawater exchange equipment of waves prevention revetment

In general, the breakwater with inland sea side slopes and the sea side slopes with sofa functions is called breakwater. The design of the present invention is to break through the breakwater body smoothly by tides or waves in the sea and the sea. The breakwater is a structure that is separated from the harbor by a certain distance. The general breakwater is made of sandstone, upright, and hybrid, but the capped concrete The width is simply the width of the car that can be used to move in and out of the car. Depending on the terrain and the port conditions, the slope of the offshore side should have a breakwater function. Construct various facilities (e.g. warehouses, office buildings, etc.) on the ground. It can be used as a water farm for unloading cargo by berthing by ships or ships, and the construction of places with a lot of blue ingress on the offshore side is called breakwaters. It is possible to have a shoreline structure with the inshore side as an inclined surface to act as a.

As shown in FIG. 1, the structure of the conventional breakwater protection structure is as shown in FIG. 1. Base end (2) (2a) is to be the inclined surface (3) (3a) of each front end surface is coated with a covering stone (4) (4a) on each inclined surface (3) (3a) and such a base stone foundation (2) (2a) Place cap concretes (5) and (5a) on top, respectively, and construct inner seaside structure in static or dense structure of sofa block (6) such as tetrapod for the purpose of sofa on top of outer sea clad stone (4). In the meantime, the breakwater protection system is constructed with a structure in which the landfill soil 8 is embedded in the space between the landfill soil 7.

However, as described above, the wide open seawalls in the harbor are irrelevant to the use of the inland sea, and the wide open seawater blocks the seawater and the seawater of the inland sea to prevent tide and wave ingress. Since it is not exchanged with seawater, the seawater of the inland sea is stagnant and mixed with the sewage coming from the land.

1 is a cross-sectional schematic view of a conventional general breakwater protection structure.

Figure 2 is a perspective view of a part of the facility that can be the sea-side exchange of seawater in the breakwater lake constructed in accordance with the present invention.

3 is a cross-sectional view taken along the line A-A 'in FIG.

<Code Description of Main Parts of Drawing>

1,10, Bangpahoan 3,3a. Slope 4,4a. Clad stone

5,5a, 40,40a. Cap Concrete 6. Sofa Block 7. Landfill

8. Landfill 11,11a. Buddhism 2,2a, 12,12a. Foundation stone

BW. Offshore side breakwater structure 20. Box block 21. Front slope wall

22. Top 23. Bottom 24. Left wall 25. Right wall

26. Back wall 27. Space part 28. Seawater water supply

29. Auxiliary support column BP. Inland Sea Revetment Structure 30. Lid

31. Manhole 32,32a. 33. Seawater Pipeline

The present invention is to build a conventional breakwater protection as described above for the structure of the breakwater protection has a structure that allows the seawater quality of the inland sea to maintain a clean state by allowing the seawater of the inland sea and the external sea to be smoothly exchanged based on the breakwater The present invention will be described below with reference to the accompanying drawings.

The structure of the breakwater lake (10) is provided with a seawater exchange facility configured according to the present invention is the same as the conventional breakwater lake (1) structure of the sandstone base (11) (11a) on the outer sea side and the inner sea side respectively. 12) 12a is piled up at a predetermined distance (lower than the water level at low tide) at a predetermined distance, and then constitutes an outer sea side wave structure (BW) constructed on the upper surface of the outer sea side foundation stage (12). In the upper surface of the dead stone foundation stage 12, the front inclined wall 21, the upper surface 22, the bottom surface 23, the left and right walls 24, 25 and rear wall 26 with a predetermined height and width The inside of the box-shaped block 20, which becomes an empty space portion 27, is installed on the upper surface of the base stone foundation 12, left and right in front of the breakwater 10, but the front inclined wall 21 of the box-shaped block 20 ) And a plurality of rectangular seawater canisters 28 in front of the upper surface 22 and supporting between the bottom of the upper surface 22 and the upper surface of the bottom 23 in the empty space 27. The pillar 29 is vertically placed to support the vertical load of the box-shaped block 20, and a manhole 31 having a predetermined size that is opened and closed by a lid 30 at the front end 22 of the box-shaped block 20 rear side. , The box-type block 20 is installed in the same height as the height of the cap concrete 40 is mounted between the rectangular seawater hole (28) and the manhole 31 on the top surface of the box-shaped block 20, the sea wall in the back wall (26) of the box-shaped block (20) A seawater drain hole 32a is provided at the distal end thereof so as to protrude to the inclined surface 12b of the inland seaside foundation stage 12a by penetrating through the seawater channel 32 and the inland seaside foundation stage 12a. Is installed so that the seawater canal passage 33 is opened in horizontal communication to form a structure of the revetment structure (BP) toward the inner sea side, and the cap concrete on the upper surface of the breakwater structure (BW) and the revetment structure (BP) respectively. (40) and (40a), and these offshore side breakwater structures (BW) and inshore seaside relief structures ( The structure of the breakwater protection structure implemented by this invention is comprised by the structure which fills up the landfill soil 7 in the space | interval between BP) and forms the landfill land 8 in this invention.

The breakwater protection system implemented by the present invention configured as described above can be used as a watershed that can be unloaded cargo by berthing or docking the ship as needed as well as a breakwater function. While building buildings and facilities such as warehouses, the seawater passages of the inclined surface 12b on the front slope wall 21 of the box-shaped block 20 and the inclined surface 12b on the inland sea side by the tidal wave by sea tide ( 32), (32a) is smoothly exchanged by tidal or wave entry through the space portion 27 and the seawater canalization channel 33 communicated between, so that the seawater quality of the inland sea can be kept clean, Seawater water hole 32 (32a) is to be located under the water surface even at low tide, there is always an effect such as seawater exchange is made.

Claims (1)

In constructing the structure of the breakwater lake 10 in which seawater exchange between the sea and the inland sea is performed smoothly, the front slope wall 21 in constructing the outer seaside breakwater structure BW on the upper surface of the outer seaside foundation stage 12. An inner space having a predetermined height and width having an upper surface 22, a lower surface 23, a left and right walls 24, 25, and a rear wall 26 is formed into a hollow space portion 27. In addition to the left and right side of the breakwater lake (10) length on the upper surface of the foundation stage 12, a plurality of rectangular seawater hydraulic holes (28) in front of the front slope wall 21 and the upper surface 22 of the box-shaped block (20) ) To support the vertical load of the box-shaped block 20 by vertically inserting an auxiliary support column 29 between the bottom surface of the upper surface 22 and the bottom surface 23 of the interior of the empty space 27. A manhole 31 of a predetermined size, which is opened and closed by a lid 30, is placed at the front end of the upper surface 22 of the back of the block 20, and the back wall 26 of the box-shaped block 20 is removed. A water drain port 32 is provided at the front end thereof so as to protrude to the inclined surface 12b of the inland sea basin foundation 12a through the seawater drain port 32 and the inland sea basal foundation 12a. 32a) is connected to the seawater channel 33 to open horizontally to form a structure of the revetment structure (BP) to the inner sea side and to the upper surface of the breakwater structure (BW) and the top of the revetment structure (BP), respectively Through the cap concrete (40) (40a) and filling the landfill (7) in the space between the outer sea breakwater structure (BW) and the inshore seaside relief structure (BP) to form a landfill (8) Water exchange facility in breakwater lake to assume.